JPWO2015083207A1 - Solar power scoring system - Google Patents

Abstract

A photovoltaic power generation score that gives a point to a user by comparing the amount of power generated by a solar power generation device with the amount of electricity used, and scoring whether or not electricity is used for environmentally friendly private power generation Provide a system. A portable terminal composed of a small portable solar panel that performs solar power generation, a capacitor, a power consumption detection storage device, and a communication device, and a scoring server that performs scoring processing. The power detection storage device comprises a detection means for detecting the electricity usage status and power consumption, and a storage means, and the communication device comprises a communication means for establishing communication with the scoring server. It comprises a means, and a score providing means for comparing the power generation amount, the usage status, and the used power, performing a scoring process according to the result, and giving a corresponding score.

Description

  The present invention relates to a photovoltaic power generation scoring system that evaluates power generation using a solar power generation device according to a certain standard and gives a rating, and in particular, from the amount of power generated by the solar power generation device and the amount of electricity used, The present invention relates to a photovoltaic power generation scoring system for scoring whether or not the use of electricity that is kind to the environment is used and for giving points to the user.

  Various technologies related to photovoltaic power generation and comprehensive systems using the same have been proposed, and active development has been promoted and utilized effectively. In particular, while promoting the positive use of power generated by solar power generation, social evaluation is given to the positive use of clean energy, and this is quantified and associated with the provision of points (points). A system has been developed that combines the granting and granting of benefits by accumulating these points, and the promotion of energy saving by reducing fossil energy consumption through the active use of cream energy.

  For example, in Japanese Patent Laid-Open No. 2012-14503, a solar power generation device that generates power as a creation energy is provided in an apartment house where a plurality of residents live, and a predetermined value corresponding to the price of the power generated by the solar power generation device is set in advance. The technology to calculate points and record them on the stored electricity point card owned by tenants etc. has been disclosed, suggesting that points can be returned for energy created continuously in apartment houses. ing.

Further, JP-A-2010-28879 discloses, as a technique for power consumers to effectively utilize less power generation facilities themselves wish CO ₂ emissions quiet time CO ₂ emissions, the base power usage monthly average By calculating the time period suitable for the power demand induction system installed on the power supplier side to conduct the power demand induction, and informing the customer of the information in advance, A technology that encourages consumers to consciously actively use power generation facilities with a low environmental load and issues eco points as a reward has been disclosed.

  In JP 2012-73867 A, a point management server device uses a wireless communication unit to purchase purchased power amount data, generated power amount data from a solar power generation system, and generated power by a solar power generation system. Acquires the amount of electricity sold and the amount of electricity sold back to the system, calculates the number of eco-life points depending on the amount of power self-sufficiency, and adds it to the balance of the members' eco-life points. It is suggested that it will be possible to promote both the alternative use of sustainable energy and energy conservation in a balanced manner.

  However, each system using each of the above technologies is based on solar power generation using a solar panel installed in a building, and it is assumed that enormous costs are required to newly install the system. Considering the degree of satisfaction with the points obtained for the cost of capital investment, the user cannot always feel a sense of value, and the user is highly motivated to promote the installation of solar panels and to acquire points. There was a limit to things.

  In addition, the system using each of the above technologies is thought to focus on reducing the time and cost of using electricity, but there are cases where electricity usage is refrained for the purpose of accumulating points. From this point of view, it was considered that there was a limit in keeping the motivation to earn points high.

  Furthermore, it is considered that the system using each of the above technologies is advantageous in that the amount of power generation is large, and a building equipped with a large-scale solar power generation system is advantageous. However, such a system cannot be expected to be used by an individual user, and there is a problem that it can be a point grant system exclusively for large users.

  The problem of reducing environmental burdens needs to be conscious not only for companies but also for individuals, both young and old. From the viewpoint of the problem of energy depletion, how to effectively use each person's electric power is a big problem. Each of the above technologies cannot necessarily be considered as an energy problem from such a viewpoint, and it cannot be said that it enables participation in efforts to address environmental problems at the individual level.

  Therefore, it is desirable to develop a photovoltaic power generation scoring system that allows individuals to participate easily and without burdening them with a large economic burden, can reduce power without difficulty, and can maintain motivation by giving points. It was.

JP 2012-14503 A JP 2010-28879 A JP 2012-73867 A

  In order to solve the above-mentioned problem, the present invention is a photovoltaic power generation scoring system for scoring power generation using a portable small solar panel solar power generation device, and in particular, power generation by the solar power generation device. A photovoltaic power generation scoring system is provided that compares the amount of electricity with the amount of electricity used, scores whether or not electricity is used for environmentally friendly private power generation, and gives points to the user.

  In order to achieve the above object, a photovoltaic power generation scoring system according to the present invention includes a portable small solar panel that performs solar power generation, and an electric power generated by the solar panel. , A power consumption detection storage device that detects the amount of power generated by the power generation stored in the capacitor and the usage status that is the amount of power used, the measured value of the power consumption detection storage device, and the power used A portable terminal composed of a communication device having a transmission / reception function for transmitting the quantity to the outside, and a scoring server that receives data from the portable terminal and performs a scoring process, The power consumption detection storage device is detected by a detection unit that detects a usage state and power consumption of electricity charged in the battery, a power generation amount of the solar panel, and the detection unit. Storage means for sequentially storing the electricity usage status and power usage, and the communication device automatically establishes wireless and / or wired communication with the scoring server after detection by the detection means. The power generation amount data recorded in the storage means, the electricity usage status data, and the communication means for transmitting the usage power data, the scoring server, the power generation amount data, the usage status data and the usage transmitted from the communication means It comprises a receiving means for automatically receiving power data, and a score giving means for comparing the amount of power generation, usage status, and power usage, performing a scoring process according to the result, and giving a corresponding score. .

  In addition, the score giving means subtracts the power charged in the battery obtained from the power generation data from the power consumption by the portable terminal obtained from the power usage data, and the subtraction result In order to give a higher score as the numerical value of is lower, weighting is performed according to the lower value of the numerical value, and a scoring process is performed with a numerical value obtained by adding or multiplying the weighted value to the power consumption, It is the structure which provides this score.

  In addition, the photovoltaic power generation scoring system according to the present invention includes a portable small-sized solar panel that performs solar power generation attached to a portable terminal, a capacitor that stores electricity generated by the solar panel, and the capacitor Power consumption detection storage device for detecting the amount of power generated by power generation and the amount of power used by the portable terminal, and a transmission / reception function for transmitting the measured value of the power consumption detection storage device and the amount of power used to the outside A portable terminal computer that automatically calculates and compares the amount of power generated and the amount of power consumed, It is automatically determined whether or not the power consumption is satisfied, and if the power generation amount is greater than the power consumption amount, the remaining power amount that has been automatically calculated is detected by the communication device equipped with the transmission / reception function. It is also a construction consisting of sending a scoring server that communicates with the storage device.

Since the present invention is configured as described in detail above, the following effects are obtained.
1. Since the solar panels are small and portable, they can be obtained at a relatively low cost, and can be generated anytime and anywhere by attaching them to mobile terminals such as tablet PCs, mobile phones, and smartphones. That is, it results in deriving an extremely small number of power generation bases instead of large-scale solar power generation bases. In addition, since the portable terminal includes the power consumption detection storage device and the communication device, the portable terminal can be easily moved and can always detect the power consumption. In addition, since the power generation amount data, the electricity usage status data, and the power usage data are transmitted to the scoring server via the communication device, the scoring server can receive these data in real time and perform data analysis. Furthermore, since the scoring server is equipped with a score giving means, the server automatically performs scoring processing according to the power generation amount, usage status, and power usage to give the score, and the user can perform troublesome operations. It is possible to automatically participate in environmental issues easily without any need.

2. The point giving means subtracts the power charged in the battery from the power consumption by the portable terminal, performs weighting according to the low value, and adds or multiplies the power consumption to the weighted value. Since it was configured to give points to users after acknowledging the score as a score, it was irrelevant to the presence or absence of power sales, focusing on power saving at the individual level targeting small and overwhelming terminals A system can be configured.
3. The computer of the portable terminal automatically calculates the amount of power generated and the amount of power consumed and performs a comparison process to automatically determine whether the amount of power generated satisfies the amount of power consumed. It is possible to keep the real time property of the processing high. In addition, when the power generation amount is larger than the power consumption amount, the surplus power is automatically evaluated by computer processing and transmitted to the scoring server, so that the network traffic is reduced and the user consumes his own power. Recognizing that it is a consumption of power other than public power, and simply using equipment to tackle environmental issues without any special operation, unconsciously It becomes possible to participate. Furthermore, since the portable terminal has high portability and a high ownership rate, the user can easily participate in efforts to deal with environmental problems.

Hereinafter, the photovoltaic power generation scoring system according to the present invention will be described in detail based on embodiments shown in the drawings. FIG. 1 is a schematic diagram of a solar power scoring system according to the present invention, and FIG. 2 is a configuration diagram of the solar power scoring system.
As shown in FIG. 1, the photovoltaic power generation scoring system 1 according to the present invention enables a portable terminal 100 equipped with a small solar panel 110 and the like and a scoring server 200 to communicate with each other via a network. It consists of the connected structure.

  The portable terminal 100 is a computer terminal equipped with a small portable communication function including a tablet PC, a mobile phone, and a smartphone. As shown in FIGS. 1 and 2, the solar panel 110, the capacitor 120, The power detection storage device 130 and the communication device 140 are configured. The solar panel 110 has a small and portable shape for performing solar power generation. In this embodiment, the solar panel 110 is integrally attached to the portable terminal. It is good also as a form connected to a portable terminal via a detachable. In addition, the output power is about 0.3 W to 1 W in this embodiment, but is not limited to this range, and it is possible to use a power generator with higher or lower output.

  The power storage device 120 is a member having a power storage function, and is mainly used for power storage of electricity generated by the solar panel 110. As for the battery 120, it is possible to use a battery that is pre-installed in the portable terminal 100 as in the present embodiment. It is also possible to use a device capable of storing electricity by being detachably connected to the portable terminal 100. Further, in this embodiment, the capacity of the battery to be mounted is about 1 Ah to 6 Ah. However, the capacity is not limited to this range, and specifications for mounting a larger capacity are possible. .

  The power consumption detection storage device 130 is a device for detecting the amount of electricity generated and the usage status of the power amount, and is incorporated in the portable terminal 100 in this embodiment. The amount of power generated by the solar panel 110 and stored in the capacitor 120, and the usage status and the amount of power used from the capacitor 120 are important parameters for performing a rating process by the rating server 200 described later. Become. The power consumption detection storage device 130 detects these pieces of information in real time.

  Specifically, the power consumption detection storage device 130 includes a detection means 132 and a storage means 134 as shown in FIG. The detection means 132 is a means for detecting the usage status of electricity from the battery 120 and the amount of power used. Thereby, it becomes possible to grasp | ascertain the electric power generation amount and the consumption of electricity finely in real time.

  In addition, the storage unit 134 is a unit for sequentially storing and storing the power generation amount of the solar panel 110, the usage state of electricity detected by the detection unit 132, and the amount of power used. The amount of power generated by the solar panel 110 is directly acquired from the solar panel 110, and other data is acquired from the detection unit 132 and stored in the storage unit 134. These pieces of information can be sequentially transmitted to the scoring server 200 after detection, but it is conceivable that much power is consumed by performing data transmission. In addition, the network traffic increases, which may cause a communication failure. In the present embodiment, each of the above data is stored in the storage unit 134 and transmitted to the scoring server 200 by a communication device 140 described later after a predetermined time has elapsed, thereby avoiding unnecessary power consumption and excessive network traffic, thereby saving power. In addition, stable operation is possible.

  The communication device 140 is a device having a transmission / reception function for transmitting data (measurement value) detected by the power consumption detection storage device 130 and the amount of power used to the outside. In this embodiment, the communication device 140 is a portable terminal. 100. Specifically, after detecting various data (measurement values) by the detection unit 132, the communication device 140 establishes communication with the scoring server 200 using wireless communication, wired communication, or both. Then, the power generation amount data, the electricity utilization status data, and the utilization power data recorded in the storage unit 134 are automatically transmitted to the scoring server 200.

  In the present embodiment, the timing of communication by the communication device 140 is automatically transmitted after a predetermined time has elapsed since the detection unit 132 detected various data (measurement values) as described above, but is limited to this. For example, it is also possible for the user to transmit by his / her own operation at an arbitrary timing.

  The scoring server 200 is a server that communicates with the portable terminal 100, and is connected to the portable terminal 100 using a wide area communication network such as the Internet. The scoring server 200 is a server that scores a user based on the power generation and usage status of the user.

As shown in FIG. 2, the scoring server 200 includes a receiving unit 210 and a score giving unit 220. The receiving unit 210 is a unit that automatically receives the power generation amount data, usage status data, and usage power amount data transmitted from the communication unit 142 and transmitted over the Internet. In this embodiment, the receiving unit 210 receives data by wired communication as a receiving method, but the receiving unit 210 is not limited to this, and can also receive data by radio. Moreover, it is also possible to adopt a configuration in which data is directly received from the portable terminal 100 without going through the Internet.
The received power generation amount data, usage status data, and usage power amount data are stored in the storage unit 230 in the server.

  The point giving means 220 is a means for performing score processing according to the amount of power generation, usage status and power usage based on the received power generation amount data, usage status data, and usage power amount data, and giving points to the user. It is.

  The scoring by the score assigning means 220 is performed by calculation processing performed based on each data, but it is necessary to fully consider not only power generation using a large-scale apparatus but also small-scale power generation by an individual. Rather, it is not appropriate to simply give a lot of points when the amount of power generation is large because the user can easily participate in environmental efforts. In addition, if it is not used even after power generation, it is possible to sell power via a completely different means, but here without considering power sales, without considering power sales at all. The most important point is that the power used is clean energy generated. Rather, mere energy conservation that is too conscious of not using electricity could even lead to a decline in motivation for addressing environmental issues.

  In the present invention, for example, while using power generation amount data as a base, emphasizing usage status and power usage data, and using electricity from solar power generation, a loop for using electricity by conventional fossil fuels using resources A rating is made with a focus on the fact that it is out of the range. Specifically, the result of subtracting the used power from the power generation amount is positive, the usage status (usage time, etc.) is scored, and a score corresponding to the usage status is given. In addition, for example, when there is electric power sold via another route, a calculation process is performed separately and a positive score can be performed.

  For the purpose of supporting the power saving activity at the individual user level, which is one of the concepts of the present invention, the point giving means is configured to exclude the numerical value related to the unused electric energy from the parameters used in the calculation process for giving points. Yes. In other words, the power charged in the battery is subtracted from the amount of power consumed by the portable terminal, and weighting corresponding to the low value is given so that a higher score is given as the numerical value of the subtraction result is lower. In this configuration, a numerical value obtained by adding or multiplying the weighted value by the power consumption amount is given as a score. Specifically, for example, a weighting table is created, and the lower the subtraction result is, the higher the weighting (including a negative value) is made, and the value obtained by adding or multiplying the power consumption to the weighting value is used as a score. Give.

  For example, when the amount of power consumption exceeds the amount of power generation, the points are directly added without any addition or multiplication. On the other hand, if the power consumption is lower than the power generation, a numerical value weighted to the power consumption is added or multiplied, and a high score is given even if the power consumption is the same. It becomes. Further, when the weighting values are the same, a higher score can be obtained by using more. Even if the amount of electric power consumption is large, if it seems to generate electricity by that amount, it is a mechanism that can be highly evaluated as not wasting resources.

  In other words, the system evaluates not only the amount of power generation but the amount of power used (consumption), and it is highly evaluated that a large amount of power is generated by a large amount of solar power. The power consumption by the portable terminal is calculated from the power usage data transmitted from the terminal, and the power charged in the battery can be obtained from the power generation data.

  The basic idea of this configuration is that the use of the power charged in the storage battery leads to the provision of points, and it is calculated and evaluated completely separately from whether power can be sold. This is a configuration that does not require a large-scale system that performs the above. For example, comparing the power required by a server with the power required by a portable terminal such as a mobile phone or tablet computer, it is obvious that the server is larger, but in Japan or worldwide Considering the total number of power, the total amount of power required by the portable terminal is overwhelmingly larger. In addition, by using solar power generation, even if the solar power generation system installed in the portable terminal is small, considering the total number of portable terminals, it is possible to cover a considerable amount of power. It becomes. In addition, considering the global level, since sunlight is always radiated in some area, power generation is performed somewhere in the world, and the solar power scoring system according to the present invention is The operation will continue for 24 hours on 365 days. In other words, it is possible to realize power saving constantly and over a wide area.

  That is, it is possible to easily reduce the total amount of energy used by saving the power used by each portable terminal using the power generated by sunlight. The present invention pays attention to the power saving at the individual level, and by maintaining the motivation of power saving for each person by giving points, it is possible to revitalize efforts for environmental problems.

  With this configuration, there is no need to consider power sales at all, and large companies with large-scale infrastructure can participate, but rather individuals who target small and overwhelming terminals. It becomes possible to configure a system that emphasizes power saving at the level.

  As an embodiment according to the present invention, the scoring process is not performed only by the scoring server 200 but can be configured to perform the scoring process in a distributed manner on the portable terminal 100. With this configuration, it is possible to reduce the load on the scoring server 200, reduce the amount of data flowing on the Internet, and avoid an excessive traffic situation.

Specifically, the computer 150 of the portable terminal 100 automatically calculates the amount of power generated by the solar panel 110 and the amount of power consumed by the user. Then, the computer 150 compares the power generation amount with the consumed power amount, and automatically determines whether or not the power generation amount satisfies the power consumption amount. When the power generation amount is larger than the power consumption amount, the remaining power amount that has been automatically calculated is transmitted to the scoring server 200 via a communication network such as the Internet by the communication device 140 having a transmission / reception function. .
At the same time, the amount of power consumption can be added as an automatic determination factor. The idea is that consuming the maximum amount of power generation maximizes the avoidance of electricity consumption by public fossil fuels. It is desirable to score on the basis.

  The photovoltaic power generation scoring system 1 according to the present invention can be realized by cloud computing technology using a cloud model. Thus, the user side can increase the availability by transmitting various data without being aware of the processing contents, and at the same time, it becomes easy to develop a processing device and a program for performing processing by the portable terminal 100.

Schematic diagram of solar power scoring system Configuration diagram of solar power scoring system

DESCRIPTION OF SYMBOLS 1 Photovoltaic power generation scoring system 100 Portable terminal 110 Solar panel 120 Capacitor 130 Power consumption detection storage device 132 Detection means 134 Storage means 140 Communication device 142 Communication means 150 Computer 200 Scoring server 210 Receiving means 220 Score giving means 230 Storage means

Claims (3)

A photovoltaic power generation scoring system is used, which is a portable small-sized solar panel that performs solar power generation, a battery that stores electricity generated by the solar panel, and the amount of power generated by the power stored in the battery and the amount used. A portable type comprising a power consumption detection storage device for detecting the usage status as the amount of power, and a communication device having a transmission / reception function for transmitting the measured value of the power consumption detection storage device and the amount of power used to the outside A terminal, and a scoring server that receives data from the portable terminal and performs scoring,
The power consumption detection storage device is configured to detect a usage state and power usage of electricity charged in the battery, a power generation amount of the solar panel, and a power usage state and power usage detected by the detection unit. The communication device comprises storage means for sequentially storing the power generation amount data automatically recorded in the storage means by establishing wireless and / or wired communication with the scoring server after detection by the detection means. It consists of communication means to transmit electricity usage status data and usage power data,
The scoring server compares the power generation amount, usage status, and power usage with the receiving means that automatically receives the power generation amount data, usage status data, and power usage data transmitted from the communication means, and according to the result A scoring system for scoring solar power generation, comprising scoring means for performing scoring processing and assigning corresponding scores.   The scoring means subtracts the power charged in the battery obtained from the power generation data from the power consumption by the portable terminal obtained from the power usage data, and the numerical value of the subtraction result In order to give a higher score as the value is lower, weighting is performed according to the lower value of the numerical value, and a scoring process is performed with a numerical value obtained by adding or multiplying the weighted value to the power consumption, The solar power generation scoring system according to claim 1, wherein: Portable small solar panel attached to a portable terminal for carrying out solar power generation, a battery for storing electricity generated by the solar panel, the amount of power stored in the battery and used by the portable terminal A power consumption detection storage device that detects the amount of power that has been performed, and a communication device that includes a transmission / reception function for transmitting the measured value of the power consumption detection storage device and the amount of power used to the outside,
The computer of the portable terminal automatically calculates and compares the amount of power generated and consumed, and automatically determines whether the amount of power generated satisfies the amount of power consumed. When the power generation amount is larger than the power consumption amount, the remaining power amount that has been automatically calculated is transmitted to a scoring server that communicates with the power consumption detection storage device by a communication device having a transmission / reception function. Solar power generation scoring system.

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